挪威大鸬鹚春季迁徙的时间:长期趋势和严冬的影响

Seabird Journal Pub Date : 2023-01-01 DOI:10.61350/sbj.35.54
Snæþór Aðalsteinsson, Aïda López, Thomas Bregnballe
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摘要

候鸟通过物候、分布和丰度的变化表现出对气候变化的物种特异性反应。许多鸟类天文台收集迁徙雀鸟的标准化数据,以提供有关雀鸟丰度和候鸟物候变化的宝贵资料,而一些鸟类天文台也对过往的迁徙水鸟和海鸟进行目视观察。在这项研究中,我们使用了两个大鸬鹚(Phalacrocorax carbo)在春季迁徙期间收集的长期数据集。我们探讨了冬季严重度对它们迁徙物候的影响程度,以及迁徙时间是否存在长期趋势。在挪威西南部的Lista鸟类观测站(1992-2020)和丹麦日德兰半岛北部的Skagen(1974 - 1998)进行了观测。在斯卡恩,没有发现大鸬鹚迁徙时间的长期趋势。然而,在暖冬之后,中位数日期(标记50%的鸟类通过)显著提前。前10%的鸟类迁徙日期的变化也与此接近,但后期(90%的鸟类迁徙)与温度没有关系。在Lista,越冬区南部的冬季温度对春季迁徙的总体时间没有显著影响,但在Lista 3月下旬气温温和的年份,前10%的鸬鹚明显提前迁徙。在Lista的早期通过阶段显示了一个显著的长期趋势,即迁移的推进,导致迁移期的延长。研究结果表明,在某些情况下,大鸬鹚春季迁徙的时间确实对冬末气温有响应或有长期趋势,但不同地点和迁徙的开始、中期和后期的响应和趋势有所不同,早期和中期的响应和趋势普遍强于后期。
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Timing of spring migration of Norwegian Great Cormorants: long-term trends and effects of winter severity
Migratory birds are showing species-specific responses to climate change through changes in phenology, distribution and abundance. While many bird observatories collect standardised data on migratory passerines to provide invaluable information on changes in their abundances and migratory phenology, some bird observatories also undertake visual observations of passing migratory waterbirds and seabirds. In this study, we use two such long-term datasets of Great Cormorants (Phalacrocorax carbo) compiled during their spring migration. We explore the extent to which winter severity has affected their migration phenology and whether there have been long-term trends in migration timing. Observations were conducted at Lista Bird Observatory in southwest Norway (1992–2020) and at Skagen in north Jutland, Denmark (1974–98). At Skagen, there were no detectable long-term trends in Great Cormorant migratory timing. However, the median date (marking the passage of 50% of birds) was significantly advanced following warm winters. Changes in the date of passage of the first 10% of birds was close to doing so as well, but the late phase (the passage of 90% of birds) showed no relation to temperature. At Lista, winter temperatures in the southern part of the wintering area had no significant effect on the overall timing of the spring passage, but the first 10% of the Cormorants migrated significantly earlier in years with mild late March temperatures at Lista. The early phase of passage at Lista showed a significant long-term trend towards an advancement of migration, leading to an extended migration period. The findings of this study indicate that the timing of Great Cormorant spring migration does in some cases respond to late winter temperatures or show long-term trends, but that the responses and trends differ between sites and between the beginning, middle and late phases of the migration, with the early and middle phases generally showing stronger responses and trends than the late phase.
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